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Magnetic memory driven by topological insulators

Author

Listed:
  • Hao Wu

    (University of California)

  • Aitian Chen

    (King Abdullah University of Science and Technology)

  • Peng Zhang

    (University of California)

  • Haoran He

    (University of California)

  • John Nance

    (University of California)

  • Chenyang Guo

    (Chinese Academy of Sciences)

  • Julian Sasaki

    (Tokyo Institute of Technology)

  • Takanori Shirokura

    (Tokyo Institute of Technology)

  • Pham Nam Hai

    (Tokyo Institute of Technology
    The University of Tokyo)

  • Bin Fang

    (King Abdullah University of Science and Technology)

  • Seyed Armin Razavi

    (University of California)

  • Kin Wong

    (University of California)

  • Yan Wen

    (King Abdullah University of Science and Technology)

  • Yinchang Ma

    (King Abdullah University of Science and Technology)

  • Guoqiang Yu

    (Chinese Academy of Sciences)

  • Gregory P. Carman

    (University of California)

  • Xiufeng Han

    (Chinese Academy of Sciences)

  • Xixiang Zhang

    (King Abdullah University of Science and Technology)

  • Kang L. Wang

    (University of California)

Abstract

Giant spin-orbit torque (SOT) from topological insulators (TIs) provides an energy efficient writing method for magnetic memory, which, however, is still premature for practical applications due to the challenge of the integration with magnetic tunnel junctions (MTJs). Here, we demonstrate a functional TI-MTJ device that could become the core element of the future energy-efficient spintronic devices, such as SOT-based magnetic random-access memory (SOT-MRAM). The state-of-the-art tunneling magnetoresistance (TMR) ratio of 102% and the ultralow switching current density of 1.2 × 105 A cm−2 have been simultaneously achieved in the TI-MTJ device at room temperature, laying down the foundation for TI-driven SOT-MRAM. The charge-spin conversion efficiency θSH in TIs is quantified by both the SOT-induced shift of the magnetic switching field (θSH = 1.59) and the SOT-induced ferromagnetic resonance (ST-FMR) (θSH = 1.02), which is one order of magnitude larger than that in conventional heavy metals. These results inspire a revolution of SOT-MRAM from classical to quantum materials, with great potential to further reduce the energy consumption.

Suggested Citation

  • Hao Wu & Aitian Chen & Peng Zhang & Haoran He & John Nance & Chenyang Guo & Julian Sasaki & Takanori Shirokura & Pham Nam Hai & Bin Fang & Seyed Armin Razavi & Kin Wong & Yan Wen & Yinchang Ma & Guoqi, 2021. "Magnetic memory driven by topological insulators," Nature Communications, Nature, vol. 12(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26478-3
    DOI: 10.1038/s41467-021-26478-3
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    References listed on IDEAS

    as
    1. Aitian Chen & Yan Wen & Bin Fang & Yuelei Zhao & Qiang Zhang & Yuansi Chang & Peisen Li & Hao Wu & Haoliang Huang & Yalin Lu & Zhongming Zeng & Jianwang Cai & Xiufeng Han & Tom Wu & Xi-Xiang Zhang & Y, 2019. "Giant nonvolatile manipulation of magnetoresistance in magnetic tunnel junctions by electric fields via magnetoelectric coupling," Nature Communications, Nature, vol. 10(1), pages 1-7, December.
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    3. Ioan Mihai Miron & Kevin Garello & Gilles Gaudin & Pierre-Jean Zermatten & Marius V. Costache & Stéphane Auffret & Sébastien Bandiera & Bernard Rodmacq & Alain Schuhl & Pietro Gambardella, 2011. "Perpendicular switching of a single ferromagnetic layer induced by in-plane current injection," Nature, Nature, vol. 476(7359), pages 189-193, August.
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